Machine and method for simultaneously laying cables in a helix on the outer surface of a unit element of a fluid transport duct

The invention claimed is: 1. A machine for laying cables helically on the outside surface of a unit pipe element for transporting fluids, the machine comprising: a rotary frame for centering about an axis of symmetry (X-X) of the unit pipe element, the frame supporting a plurality of winding elements designed to receive cables for laying on the unit pipe element, each winding element being situated in a respective plane (P) that is substantially longitudinal relative to the unit pipe element and the planes being spaced apart from one another around the axis of symmetry of the unit pipe element; means for adjusting the angle of inclination of each winding element relative to the longitudinal plane in which it is situated; a linear travel stepper motor for moving the frame along the unit pipe element; and a rotary travel stepper motor for causing the frame to turn about that axis of symmetry of the unit pipe element; each winding element comprising: a storage reel having the cable for laying on the unit pipe element wound thereon: an unwinding reel for receiving one end of the cable unwound from the storage reel in order to take it to the outside surface of the unit pipe element; a guide system for guiding the cable unwound from the storage reel to the outside surface of the unit pipe element; and a compression system for applying a compression force on the cable that has just been laid on the outside surface of the unit pipe element. 2. The machine according to claim 1 , wherein the compression system of each winding element comprises a telescopic rod having one end fastened to the unwinding reel and an opposite end connected to a wheel with a spring being interposed between them, said wheel being suitable for running on the outside surface of the unit guide element while the cable is being laid. 3. The machine according to claim 1 , wherein the guide system for each winding element comprises: a roller device for automatically removing plastics strips covering adhesive strips of the cable prior to laying said cable on the outside surface of the unit pipe element; and a deflector for guiding the cable from the unwinding reel to the roller device. 4. The machine according to claim 3 , wherein the roller device comprises a drive roller for receiving a free end of the cable coming from the unwinding reel together with winding rollers for having wound thereon the plastics strips separated from the cable. 5. The machine according to claim 1 , wherein each storage reel and unwinding reel is provided with a braking system. 6. The machine according to claim 1 , wherein each winding element is mounted on a face of the frame via a plate that is suitable for turning about a radial axis (Y-Y) that is radial relative to the axis of symmetry (X-X) of the unit pipe element, the frame also comprising a wormscrew system coupled to each plate in order to adjust the angle of inclination of each winding element relative to the longitudinal plane in which it is situated. 7. The machine according to claim 6 , wherein the wormscrew systems synchronized with one another in order to enable the same angle of inclination to be given to each winding element. 8. The machine according to claim 1 , further comprising a carriage supporting the frame via a guide ring for centering on the axis of symmetry of the unit pipe element, the carriage being provided with wheels driven by the linear travel stepper motor and suitable for traveling along a guide rail. 9. The machine according to claim 8 , wherein the guide ring of the carriage includes a toothed wheel that meshes rotatably with the rotary travel stepper motor. 10. The machine according to claim 8 , wherein the carriage comprises: means for adjusting the vertical position and the horizontal position of the frame; and guide rollers for guiding the unit pipe element. 11. The machine according to claim 1 , further comprising optical means for determining the distance between the frame and the end of the unit pipe element towards which the frame is traveling. 12. The machine according to claim 1 , wherein the frame is polygonal in shape having a plurality of faces on which the winding elements are mounted. 13. A method of laying cables helically on the outside surface of a fluid transport unit pipe element by means of a machine according to claim 1 , the method comprising: positioning the rotary frame of the machine around an axis of symmetry (X-X) of the unit pipe element at one of its ends; and controlling the linear travel and rotary travel stepper motors of the machine so as to enable the machine to advance linearly towards the opposite end of the unit pipe element with rotation of its rotary frame being synchronized in order to ensure that all of the cables are laid simultaneously and helically on the outside surface of the unit laying element.